KR101216841B1 - Shelf-shaped rfid system - Google Patents

Abstract

PURPOSE: A shelf antenna system is provided to increase the recognition ratio and speed of a tag by adding a showering function to a shelf antenna. CONSTITUTION: A first antenna(120) activates an access RFID(radio frequency identification) tag by receiving a first control signal. A second antenna(130) acquires product information from the RFID tag by receiving a second control signal. A reader unit(110) manages products by using product information and by generating the first and the second control signal. The first antenna generates electronic waves according to the first control signal. The first antenna is arranged for generating the electronic wave in tag sensing areas formed by the second antenna. A switching unit switches an operation state of the first antennas. [Reference numerals] (110) RFID reader unit; (121) First antenna #1; (122) First antenna #2; (123) First antenna #3; (124) First antenna #4; (130) Second antenna; (AA) Second control signal; (BB) First control signal

Description

Shelf Antenna System {SHELF-SHAPED RFID SYSTEM}

The present invention relates to a shelf antenna system, and more particularly, to a shelf antenna system capable of generating an electromagnetic wave energy on a shelf to improve a tag recognition rate of the shelf antenna system.

Generally, there are management methods using barcode recognition and management methods using RFID communication.

The management method using the barcode recognition is a method in which an employee manages using a barcode attached to an article. However, the management method using the barcode recognition must find and recognize a barcode assigned to each article. There is a problem of poor accuracy.

In recent years, a management method using RFID communication is mainly used for efficient management of articles. In this case, RFID (Radio Frequency Identification) communication refers to the transmission and reception of information using a radio frequency from an electronic tag attached to an article.

1 is a block diagram of an antenna system according to the prior art.

Referring to FIG. 1, an antenna system according to the related art includes an RFID reader unit 10, an RFID antenna unit 20, and an RFID tag 30.

The RFID reader unit 10 includes an RFID antenna unit 20 for internal or external use. The RFID antenna unit 20 emits an active signal to form an RF field as an electromagnetic field.

In addition, when the RFID tag 30 enters the RF field, the RFID tag 30 receives an active signal emitted from the antenna 20 of the RFID reader unit 10 and uses the received active signal. Information stored therein is transmitted to the RFID antenna unit 20. Thereafter, the RFID reader unit 10 receives the information transmitted from the RFID tag 30 and analyzes it to obtain unique information of the object on which the RFID tag 30 is mounted.

However, such an antenna system has a structure in which the RFID tag 30 responds only when the RFID antenna unit 20 emits an active signal to the RFID tag 30.

In other words, the conventional antenna system transmits a command directly from the RFID reader unit 10 to the RFID antenna unit 20 to wake up the RFID tag 30 and then perform communication. The communication time becomes long and the recognition speed becomes slow.

Embodiments according to the present invention to provide a shelf antenna system of a new structure.

In addition, an embodiment according to the present invention is to provide a shelf antenna system that can improve the recognition rate of the tag by applying a shower function.

The technical problems to be achieved in the proposed embodiment are not limited to the technical problems mentioned above, and other technical problems not mentioned above are clear to those skilled in the art to which the proposed embodiments belong from the following description. Can be understood.

Shelf antenna system according to an embodiment of the present invention includes a first antenna operating by a first control signal; A second antenna operated by a second control signal and configured to acquire and transmit article information from an RFID tag attached to an accessed article; And a reader unit generating the first and second control signals and managing the article by using the article information obtained through the second antenna.

In addition, the shelf antenna system according to an embodiment of the present invention; A first antenna mounted on at least one first surface of the shelf case and operating at a first time point; And a second antenna mounted on a second surface of the shelf case and operating at a second time point.

According to an embodiment of the present invention, by adding a shower function to an existing shelf antenna, it is possible to configure a more stable shelf antenna system by increasing the recognition rate and recognition rate of the tag.

1 is a block diagram of an antenna system according to the prior art.
2 is a block diagram of a shelf antenna system according to an embodiment of the present invention.
3 is a detailed configuration diagram of the RFID reader unit.
4 is a block diagram of a shelf antenna system according to another embodiment of the present invention.
5 is a view showing an application example of a shelf antenna system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention. In order to facilitate the understanding of the present invention, the same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted.

2 is a block diagram of a shelf antenna system according to an embodiment of the present invention.

Referring to FIG. 2, the shelf antenna system includes an RFID reader 110, a first antenna 120, and a second antenna 130.

In this case, the first antenna 120 may be configured in plural, and accordingly, the first antenna 120 may include the first antenna # 1 121, the first antenna # 2 122, and the first antenna # 3 ( 123 and the fourth antenna unit # 4 124.

The shelf antenna system as described above acquires the identification information of the article entered into the shelf, manages the obtained identification information, or transmits it to a separate server.

The RFID reader 110 controls the operations of the first antenna 120 and the second antenna 130.

More specifically, the RFID reader 110 generates a first control signal to operate the first antenna 120, or generates a second control signal to operate the second antenna 130.

At this time, the first control signal is a wake-up signal for waking up the RFID tag attached to the article entered near the shelf antenna system, the second control signal is to read the identification information of the article stored in the RFID tag Gastric Reading is a signal.

To this end, the RFID reader unit 110 generates the first control signal to operate the first antenna 120, so that the RFID tag approached around the shelf by the operation of the first antenna 120 Enable wake-up

In addition, the RFID reader unit 110 generates the second control signal to operate the second antenna 130, so that the article information from the RFID tag approaching the surroundings by the operation of the second antenna 120. To be acquired.

3 is a detailed configuration diagram of the RFID reader unit 110.

Referring to FIG. 3, the RFID reader unit 110 includes a communication unit 111, a power supply unit 112, an RFID modem 113, and a controller 114.

The communication unit 111 performs data communication with a separate computer (not shown) to transfer the acquired item information to the server or to receive various signals transmitted from the server. Here, the various signals received may include an operation start signal.

The communication unit 111 may perform data communication with the computer through a USB communication standard.

The power supply unit 112 transfers the power transmitted through the communication unit 111 to the RFID modem 113 and the control unit 114, respectively. That is, the RFID reader unit 110 may be connected to a separate computer, and thus the computer may supply driving power to the RFID reader unit 110 through a USB interface.

The RFID modem 113 transmits a control signal to the first antenna 120 and the second antenna 130 or obtains the item information transmitted from the second antenna 130.

The controller 114 controls the overall operation of the RFID reader 110.

That is, the controller 114 generates a first control signal to allow the first antenna 120 to operate.

In this case, the controller 114 may generate the first control signal at a first time point to control the operation of the first antenna 120. The first time point may be a constant cycle according to a predetermined time interval. That is, when the predetermined period is 10 second intervals, the first control signal is generated at 10 second intervals, so that the first antenna 120 is operated at 10 second intervals.

In addition, the first time point may be any time point that is not a predetermined period. That is, the first control signal may always occur, and accordingly, the first antenna 120 may always perform an operation.

In addition, the controller 114 generates a second control signal so that the operation of the second antenna 130 is performed.

In this case, the controller 114 may generate the second control signal at a second time point to control the operation of the second antenna 130. The second time point may be a time point when a wake-up RFID tag is detected by the operation of the first antenna 120.

The first antenna 120 operates by the first control signal generated through the RFID reader unit 110, and accordingly performs an operation for waking up the RFID tag near the shelf.

That is, the first antenna 120 may be installed in an access road to which the article attached with the RFID tag enters, thereby performing a showering operation to generate an electromagnetic wave in the access road, and thus, Allow the RFID tag attached to the article to wake up.

The second antenna 130 is operated by the second control signal generated through the RFID reader unit 120, thereby obtaining article information from the RFID tag approaching around the shelf.

In this case, when an operation for acquiring article information from the RFID tag is performed by the second antenna 130, the RFID tag is already in a wake-up state by the operation of the first antenna 120. The second antenna 130 may acquire article information from the RFID tag in a short time.

That is, in the embodiment according to the present invention, the wake-up RFID tag entering the shelf using the showering function is pre-wakeed, and the article information is obtained from the RFID tag as the access of the wake-up RFID tag is detected. Therefore, the time for wake-up of the RFID tag can be shortened and the tag recognition rate can be improved.

In this case, the first antenna 120 may be continuously performing even when there is no access of the article attached with the RFID tag.

In such a case, unnecessary power may be wasted, and accordingly, according to an exemplary embodiment of the present invention, only a specific antenna of a plurality of antennas constituting the first antenna 120 may be selectively operated.

To this end, the embodiment according to the present invention may include a switching unit 140 as shown in FIG.

The switching unit 140 may selectively block a first control signal for operating each of the first antennas # 1 to # 4 (120), and are supplied to each of the first antennas # 1 to # 4 (120). Drive power can be cut off.

That is, the RFID reader 110 may turn on / off the switching unit 140 connected to each of the first antennas to operate only one or two first antennas of the plurality of antennas when the RFID tag is not accessed for a predetermined time. Send a signal.

Accordingly, when there is no access of the RFID tag for a predetermined time, only a specific first antenna of the plurality of first antennas may operate. In this case, it is preferable that the operated first antenna is an antenna installed at a starting point where the article is accessed, that is, at the entrance of the shelf.

Thereafter, when the access of the specific RFID tag is recognized, the RFID reader unit 110 performs all the operations of the first antenna.

Meanwhile, the RFID tag approaching the shelf antenna system as described above includes an active tag and a passive tag according to an operation method.

The active tag has a power source inside the tag itself and is operated by the existing power source.

On the other hand, the passive tag receives magnetic energy from the reader and operates by using it as a power source.

That is, the chip used in the passive tag receives a carrier wave from the reader unit to generate driving power, and performs a communication operation with the reader by the generated driving power. To this end, the tag includes a capacitor, and the article information is transmitted to the reader by the charging and discharging operation of the capacitor.

In this case, when the tag approached around the shelf antenna system is the active tag, the electromagnetic waves generated by the first antenna 120 may be a wake-up signal for waking the approaching tag.

However, when the tag approaching around the shelf antenna system is a passive tag, the electromagnetic waves generated by the first antenna 120 may function as a signal for charging a capacitor provided in the passive tag.

That is, in the passive tag as described above, the reaction rate may be determined according to the state of charge of the capacitor. In other words, when the state of charge of the capacitor is high, the reaction rate increases accordingly, and when the state of charge is low, the reaction rate decreases due to the charging operation performed by a signal transmitted from the reader.

Accordingly, the electromagnetic wave generated by the first antenna 120 charges a capacitor provided inside the passive tag approaching the surroundings, thereby increasing the response speed of the passive tag approaching the surroundings, thereby increasing the tag recognition rate. Make it work.

5 is a view showing an application example of a shelf antenna system according to an embodiment of the present invention.

Referring to FIG. 5, the shelf antenna system is mounted on a shelf case 200, a first antenna 120 mounted on at least a first surface of the shelf case 200, and a second surface of the shelf case 200. And a second antenna 130.

The shelf case 200 provides a space for entry of an article attached with an RFID tag. That is, the shelf case 200 provides an area for recognizing the RFID tag so that the article attached with the RFID tag can be accessed to the area provided by the shelf case 200.

In addition, the shelf case 200 provides an installation space in which the first antenna 120 and the second antenna 130 are installed and fixed.

In this case, the shelf case 200 may include a first surface, a second surface, a third surface, and a fourth surface. However, the shape of the shelf case 200 shown in FIG. 5 is only one embodiment of the present invention, and the shelf case 200 may include separate fifth and six sides.

The first antenna 120 is mounted on at least one side of the shelf case.

The second antenna 120 is mounted on a particular second side of the shelf case.

In other words, the second antenna 120 is mounted on the bottom surface of the shelf case 200, so that the RFID tag information can be easily obtained from the article entered into the shelf case.

In addition, a plurality of first antennas 120 may be installed on the left side, the right side, and the rear side of the shelf case 200 to wake-up RFID tags entering the shelf case 200 through four directions. Can be.

In addition, by using the direction in which the most entry of the RFID tag is made, only the first antenna 120 mounted on the surface corresponding to the direction is operated at a specific point in time, and the rest of the other components mounted on the surface corresponding to the other direction later. One antenna 120 may also operate.

According to the embodiment of the present invention as described above, by adding a shower function to the existing shelf antenna, it is possible to increase the recognition rate and recognition speed of the tag to configure a more stable shelf antenna system.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood that various modifications and applications other than those described above are possible. For example, each component shown in detail in the embodiment of the present invention may be modified. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

110: RFID reader
120: first antenna
130: second antenna

Claims (12)

An antenna system for obtaining article information from an RFID tag,
A first antenna operated by the first control signal to wake-up an RFID tag near the periphery;
A second antenna operated by a second control signal to acquire and transmit article information from an RFID tag waked up by the first antenna; And
And a reader unit for generating the first and second control signals and managing the article by using the article information obtained through the second antenna. The method of claim 1,
And the first antenna generates electromagnetic waves in accordance with the first control signal. The method of claim 2,
And a plurality of first antennas are arranged to generate the electromagnetic waves in all tag detection regions formed through the second antennas. The method of claim 3,
The antenna system further comprises a switching unit for switching the operating state of the plurality of first antennas arranged. The method of claim 1,
The first control signal is a wake-up signal for waking up the RFID tag,
And the second control signal is a reading signal for reading the article information. 6. The method of claim 5,
The RFID tag further includes a capacitor performing a charging and discharging operation for the article information transmission operation,
And the first control signal is a signal for charging a capacitor foamed in the RFID tag. The method of claim 1,
And the second antenna is an antenna of a UHF band. Shelf case;
A first antenna mounted on at least one first surface of the shelf case and operating at a first time point to wake-up an RFID tag approaching around the shelf case; And
And a second antenna mounted on a second surface of the shelf case and operating at a second time point to obtain information from an RFID tag waked up by the first antenna. The method of claim 8,
The first side includes at least one of a rear side, a left side, and a right side of the shelf case,
The second surface is a shelf antenna system, characterized in that the lower surface of the shelf case. The method of claim 9,
The first antenna is a shelf antenna system mounted on at least two or more of the rear, left and right sides of the shelf case to generate electromagnetic waves in a plurality of directions. The method of claim 8,
The first time point is a constant period of a specific time interval,
The second time point is a shelf antenna system, characterized in that the access point of the tagged article. The method of claim 8,
The first antenna
Shelf antenna system for charging the capacitor embedded in the RFID tag.

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